yosys/frontends/rtlil/rtlil_parser.y

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Claire Xenia Wolf <claire@yosyshq.com>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* ---
*
* A very simple and straightforward frontend for the RTLIL text
* representation.
*
*/
%require "3.0"
%{
#include <list>
#include "frontends/rtlil/rtlil_frontend.h"
YOSYS_NAMESPACE_BEGIN
namespace RTLIL_FRONTEND {
std::istream *lexin;
RTLIL::Design *current_design;
RTLIL::Module *current_module;
RTLIL::Wire *current_wire;
RTLIL::Memory *current_memory;
RTLIL::Cell *current_cell;
RTLIL::Process *current_process;
std::vector<std::vector<RTLIL::SwitchRule*>*> switch_stack;
std::vector<RTLIL::CaseRule*> case_stack;
dict<RTLIL::IdString, RTLIL::Const> attrbuf;
bool flag_nooverwrite, flag_overwrite, flag_lib;
bool delete_current_module;
}
using namespace RTLIL_FRONTEND;
YOSYS_NAMESPACE_END
USING_YOSYS_NAMESPACE
%}
%define api.prefix {rtlil_frontend_yy}
/* The union is defined in the header, so we need to provide all the
* includes it requires
*/
%code requires {
#include <string>
#include <vector>
#include "frontends/rtlil/rtlil_frontend.h"
}
%union {
char *string;
int integer;
YOSYS_NAMESPACE_PREFIX RTLIL::Const *data;
YOSYS_NAMESPACE_PREFIX RTLIL::SigSpec *sigspec;
std::vector<YOSYS_NAMESPACE_PREFIX RTLIL::SigSpec> *rsigspec;
}
%token <string> TOK_ID TOK_VALUE TOK_STRING
%token <integer> TOK_INT
%token TOK_AUTOIDX TOK_MODULE TOK_WIRE TOK_WIDTH TOK_INPUT TOK_OUTPUT TOK_INOUT
%token TOK_CELL TOK_CONNECT TOK_SWITCH TOK_CASE TOK_ASSIGN TOK_SYNC
%token TOK_LOW TOK_HIGH TOK_POSEDGE TOK_NEGEDGE TOK_EDGE TOK_ALWAYS TOK_GLOBAL TOK_INIT
%token TOK_UPDATE TOK_MEMWR TOK_PROCESS TOK_END TOK_INVALID TOK_EOL TOK_OFFSET
%token TOK_PARAMETER TOK_ATTRIBUTE TOK_MEMORY TOK_SIZE TOK_SIGNED TOK_REAL TOK_UPTO
%type <rsigspec> sigspec_list_reversed
%type <sigspec> sigspec sigspec_list
%type <integer> sync_type
%type <data> constant
%expect 0
%debug
%%
input:
optional_eol {
attrbuf.clear();
} design {
if (attrbuf.size() != 0)
rtlil_frontend_yyerror("dangling attribute");
};
EOL:
optional_eol TOK_EOL;
optional_eol:
optional_eol TOK_EOL | /* empty */;
design:
design module |
design attr_stmt |
design autoidx_stmt |
/* empty */;
module:
TOK_MODULE TOK_ID EOL {
delete_current_module = false;
if (current_design->has($2)) {
RTLIL::Module *existing_mod = current_design->module($2);
if (!flag_overwrite && (flag_lib || (attrbuf.count(ID::blackbox) && attrbuf.at(ID::blackbox).as_bool()))) {
log("Ignoring blackbox re-definition of module %s.\n", $2);
delete_current_module = true;
} else if (!flag_nooverwrite && !flag_overwrite && !existing_mod->get_bool_attribute(ID::blackbox)) {
rtlil_frontend_yyerror(stringf("RTLIL error: redefinition of module %s.", $2).c_str());
} else if (flag_nooverwrite) {
log("Ignoring re-definition of module %s.\n", $2);
delete_current_module = true;
} else {
log("Replacing existing%s module %s.\n", existing_mod->get_bool_attribute(ID::blackbox) ? " blackbox" : "", $2);
current_design->remove(existing_mod);
}
}
current_module = new RTLIL::Module;
current_module->name = $2;
current_module->attributes = attrbuf;
if (!delete_current_module)
current_design->add(current_module);
attrbuf.clear();
free($2);
} module_body TOK_END {
if (attrbuf.size() != 0)
rtlil_frontend_yyerror("dangling attribute");
current_module->fixup_ports();
if (delete_current_module)
delete current_module;
else if (flag_lib)
current_module->makeblackbox();
current_module = nullptr;
} EOL;
module_body:
module_body module_stmt |
/* empty */;
module_stmt:
param_stmt | param_defval_stmt | attr_stmt | wire_stmt | memory_stmt | cell_stmt | proc_stmt | conn_stmt;
param_stmt:
TOK_PARAMETER TOK_ID EOL {
current_module->avail_parameters($2);
free($2);
};
param_defval_stmt:
TOK_PARAMETER TOK_ID constant EOL {
current_module->avail_parameters($2);
current_module->parameter_default_values[$2] = *$3;
delete $3;
free($2);
};
attr_stmt:
TOK_ATTRIBUTE TOK_ID constant EOL {
attrbuf[$2] = *$3;
delete $3;
free($2);
};
autoidx_stmt:
TOK_AUTOIDX TOK_INT EOL {
autoidx = max(autoidx, $2);
};
wire_stmt:
TOK_WIRE {
current_wire = current_module->addWire("$__rtlil_frontend_tmp__");
current_wire->attributes = attrbuf;
attrbuf.clear();
} wire_options TOK_ID EOL {
if (current_module->wire($4) != nullptr)
rtlil_frontend_yyerror(stringf("RTLIL error: redefinition of wire %s.", $4).c_str());
current_module->rename(current_wire, $4);
free($4);
};
wire_options:
wire_options TOK_WIDTH TOK_INT {
current_wire->width = $3;
} |
wire_options TOK_WIDTH TOK_INVALID {
rtlil_frontend_yyerror("RTLIL error: invalid wire width");
} |
wire_options TOK_UPTO {
current_wire->upto = true;
} |
wire_options TOK_SIGNED {
current_wire->is_signed = true;
} |
wire_options TOK_OFFSET TOK_INT {
current_wire->start_offset = $3;
} |
wire_options TOK_INPUT TOK_INT {
current_wire->port_id = $3;
current_wire->port_input = true;
current_wire->port_output = false;
} |
wire_options TOK_OUTPUT TOK_INT {
current_wire->port_id = $3;
current_wire->port_input = false;
current_wire->port_output = true;
} |
wire_options TOK_INOUT TOK_INT {
current_wire->port_id = $3;
current_wire->port_input = true;
current_wire->port_output = true;
} |
/* empty */;
memory_stmt:
TOK_MEMORY {
current_memory = new RTLIL::Memory;
current_memory->attributes = attrbuf;
attrbuf.clear();
} memory_options TOK_ID EOL {
if (current_module->memories.count($4) != 0)
rtlil_frontend_yyerror(stringf("RTLIL error: redefinition of memory %s.", $4).c_str());
current_memory->name = $4;
current_module->memories[$4] = current_memory;
free($4);
};
memory_options:
memory_options TOK_WIDTH TOK_INT {
current_memory->width = $3;
} |
memory_options TOK_SIZE TOK_INT {
current_memory->size = $3;
} |
memory_options TOK_OFFSET TOK_INT {
current_memory->start_offset = $3;
} |
/* empty */;
cell_stmt:
TOK_CELL TOK_ID TOK_ID EOL {
if (current_module->cell($3) != nullptr)
rtlil_frontend_yyerror(stringf("RTLIL error: redefinition of cell %s.", $3).c_str());
current_cell = current_module->addCell($3, $2);
current_cell->attributes = attrbuf;
attrbuf.clear();
free($2);
free($3);
} cell_body TOK_END EOL;
cell_body:
cell_body TOK_PARAMETER TOK_ID constant EOL {
current_cell->parameters[$3] = *$4;
free($3);
delete $4;
} |
cell_body TOK_PARAMETER TOK_SIGNED TOK_ID constant EOL {
current_cell->parameters[$4] = *$5;
current_cell->parameters[$4].flags |= RTLIL::CONST_FLAG_SIGNED;
free($4);
delete $5;
} |
cell_body TOK_PARAMETER TOK_REAL TOK_ID constant EOL {
current_cell->parameters[$4] = *$5;
current_cell->parameters[$4].flags |= RTLIL::CONST_FLAG_REAL;
free($4);
delete $5;
} |
cell_body TOK_CONNECT TOK_ID sigspec EOL {
if (current_cell->hasPort($3))
rtlil_frontend_yyerror(stringf("RTLIL error: redefinition of cell port %s.", $3).c_str());
current_cell->setPort($3, *$4);
delete $4;
free($3);
} |
/* empty */;
proc_stmt:
TOK_PROCESS TOK_ID EOL {
if (current_module->processes.count($2) != 0)
rtlil_frontend_yyerror(stringf("RTLIL error: redefinition of process %s.", $2).c_str());
current_process = current_module->addProcess($2);
current_process->attributes = attrbuf;
switch_stack.clear();
switch_stack.push_back(&current_process->root_case.switches);
case_stack.clear();
case_stack.push_back(&current_process->root_case);
attrbuf.clear();
free($2);
} case_body sync_list TOK_END EOL;
switch_stmt:
TOK_SWITCH sigspec EOL {
RTLIL::SwitchRule *rule = new RTLIL::SwitchRule;
rule->signal = *$2;
rule->attributes = attrbuf;
switch_stack.back()->push_back(rule);
attrbuf.clear();
delete $2;
} attr_list switch_body TOK_END EOL;
attr_list:
/* empty */ |
attr_list attr_stmt;
switch_body:
switch_body TOK_CASE {
RTLIL::CaseRule *rule = new RTLIL::CaseRule;
rule->attributes = attrbuf;
switch_stack.back()->back()->cases.push_back(rule);
switch_stack.push_back(&rule->switches);
case_stack.push_back(rule);
attrbuf.clear();
} compare_list EOL case_body {
switch_stack.pop_back();
case_stack.pop_back();
} |
/* empty */;
compare_list:
sigspec {
case_stack.back()->compare.push_back(*$1);
delete $1;
} |
compare_list ',' sigspec {
case_stack.back()->compare.push_back(*$3);
delete $3;
} |
/* empty */;
case_body:
case_body attr_stmt |
case_body switch_stmt |
case_body assign_stmt |
/* empty */;
assign_stmt:
TOK_ASSIGN sigspec sigspec EOL {
if (attrbuf.size() != 0)
rtlil_frontend_yyerror("dangling attribute");
// See https://github.com/YosysHQ/yosys/pull/4765 for discussion on this
// warning
if (!switch_stack.back()->empty()) {
rtlil_frontend_yywarning(
"case rule assign statements after switch statements may cause unexpected behaviour. "
"The assign statement is reordered to come before all switch statements."
);
}
case_stack.back()->actions.push_back(RTLIL::SigSig(*$2, *$3));
delete $2;
delete $3;
};
sync_list:
sync_list TOK_SYNC sync_type sigspec EOL {
RTLIL::SyncRule *rule = new RTLIL::SyncRule;
rule->type = RTLIL::SyncType($3);
rule->signal = *$4;
current_process->syncs.push_back(rule);
delete $4;
} update_list |
sync_list TOK_SYNC TOK_ALWAYS EOL {
RTLIL::SyncRule *rule = new RTLIL::SyncRule;
rule->type = RTLIL::SyncType::STa;
rule->signal = RTLIL::SigSpec();
current_process->syncs.push_back(rule);
} update_list |
sync_list TOK_SYNC TOK_GLOBAL EOL {
RTLIL::SyncRule *rule = new RTLIL::SyncRule;
rule->type = RTLIL::SyncType::STg;
rule->signal = RTLIL::SigSpec();
current_process->syncs.push_back(rule);
} update_list |
sync_list TOK_SYNC TOK_INIT EOL {
RTLIL::SyncRule *rule = new RTLIL::SyncRule;
rule->type = RTLIL::SyncType::STi;
rule->signal = RTLIL::SigSpec();
current_process->syncs.push_back(rule);
} update_list |
/* empty */;
sync_type:
TOK_LOW { $$ = RTLIL::ST0; } |
TOK_HIGH { $$ = RTLIL::ST1; } |
TOK_POSEDGE { $$ = RTLIL::STp; } |
TOK_NEGEDGE { $$ = RTLIL::STn; } |
TOK_EDGE { $$ = RTLIL::STe; };
update_list:
update_list TOK_UPDATE sigspec sigspec EOL {
current_process->syncs.back()->actions.push_back(RTLIL::SigSig(*$3, *$4));
delete $3;
delete $4;
} |
update_list attr_list TOK_MEMWR TOK_ID sigspec sigspec sigspec constant EOL {
RTLIL::MemWriteAction act;
act.attributes = attrbuf;
act.memid = $4;
act.address = *$5;
act.data = *$6;
act.enable = *$7;
act.priority_mask = *$8;
current_process->syncs.back()->mem_write_actions.push_back(std::move(act));
attrbuf.clear();
free($4);
delete $5;
delete $6;
delete $7;
delete $8;
} |
/* empty */;
constant:
TOK_VALUE {
char *ep;
int width = strtol($1, &ep, 10);
bool is_signed = false;
if (*ep == '\'') {
ep++;
}
if (*ep == 's') {
is_signed = true;
ep++;
}
std::list<RTLIL::State> bits;
while (*ep != 0) {
RTLIL::State bit = RTLIL::Sx;
switch (*ep) {
case '0': bit = RTLIL::S0; break;
case '1': bit = RTLIL::S1; break;
case 'x': bit = RTLIL::Sx; break;
case 'z': bit = RTLIL::Sz; break;
case '-': bit = RTLIL::Sa; break;
case 'm': bit = RTLIL::Sm; break;
}
bits.push_front(bit);
ep++;
}
if (bits.size() == 0)
bits.push_back(RTLIL::Sx);
while ((int)bits.size() < width) {
RTLIL::State bit = bits.back();
if (bit == RTLIL::S1)
bit = RTLIL::S0;
bits.push_back(bit);
}
while ((int)bits.size() > width)
bits.pop_back();
$$ = new RTLIL::Const;
for (auto it = bits.begin(); it != bits.end(); it++)
$$->bits().push_back(*it);
if (is_signed) {
$$->flags |= RTLIL::CONST_FLAG_SIGNED;
}
free($1);
} |
TOK_INT {
$$ = new RTLIL::Const($1, 32);
} |
TOK_STRING {
$$ = new RTLIL::Const($1);
free($1);
};
sigspec:
constant {
$$ = new RTLIL::SigSpec(*$1);
delete $1;
} |
TOK_ID {
if (current_module->wire($1) == nullptr)
rtlil_frontend_yyerror(stringf("RTLIL error: wire %s not found", $1).c_str());
$$ = new RTLIL::SigSpec(current_module->wire($1));
free($1);
} |
sigspec '[' TOK_INT ']' {
if ($3 >= $1->size() || $3 < 0)
rtlil_frontend_yyerror("bit index out of range");
$$ = new RTLIL::SigSpec($1->extract($3));
delete $1;
} |
sigspec '[' TOK_INT ':' TOK_INT ']' {
if ($3 >= $1->size() || $3 < 0 || $3 < $5)
rtlil_frontend_yyerror("invalid slice");
$$ = new RTLIL::SigSpec($1->extract($5, $3 - $5 + 1));
delete $1;
} |
'{' sigspec_list '}' {
$$ = $2;
};
sigspec_list_reversed:
sigspec_list_reversed sigspec {
$$->push_back(*$2);
delete $2;
} |
/* empty */ {
$$ = new std::vector<RTLIL::SigSpec>;
};
sigspec_list: sigspec_list_reversed {
$$ = new RTLIL::SigSpec;
for (auto it = $1->rbegin(); it != $1->rend(); it++)
$$->append(*it);
delete $1;
};
conn_stmt:
TOK_CONNECT sigspec sigspec EOL {
if (attrbuf.size() != 0)
rtlil_frontend_yyerror("dangling attribute");
current_module->connect(*$2, *$3);
delete $2;
delete $3;
};